Herasse Muriel, Parain Karine, Marty Isabelle, Monnier Nicole, Kaindl Angela M, Leroy Jean-Paul, Richard Pascale, Lunardi Jöel, Romero Norma B, Ferreiro Ana
Inserm U582, Institut de Myologie, Paris, France.
J Neuropathol Exp Neurol. 2007 Jan;66(1):57-65. doi: 10.1097/NEN.0b013e31802d47ce.
Central core disease (CCD) and multi-minicore disease (MmD) are muscle disorders characterized by foci of mitochondria depletion and sarcomere disorganization ("cores") in muscle fibers. Although core myopathies are the most frequent congenital myopathies, their pathogenesis remains elusive and specific diagnostic markers are lacking. Core myopathies are mostly caused by mutations in 2 sarcoplasmic reticulum proteins: the massive Ca-release channel RyR1 or the selenoprotein N (SelN) of unknown function. To search for distinctive markers and to obtain further pathophysiological insight, we identified the molecular defects in 12 core myopathy patients and analyzed the immunolocalization of 6 proteins of the Ca-release complex in their muscle biopsies. In 7 cases with RYR1 mutations (6 CCD, one MmD), RyR1 was depleted from the cores; in contrast, the other proteins of the sarcoplasmic reticulum (calsequestrin, SERCA1/2, and triadin) and the T-tubule (dihydropyridine receptor-alpha1subunit) accumulated within or around the lesions, suggesting an original modification of the Ca-release complex protein arrangement. Conversely, all Ca-related proteins were distributed normally in 5 MmD cases with SelN mutations. Our results provide an appropriate tool to orientate the differential and molecular diagnosis of core myopathies and suggest that different pathophysiological mechanisms lead to core formation in SelN- and in RyR1-related core myopathies.
中央轴空病(CCD)和多微小轴空病(MmD)是肌肉疾病,其特征为肌纤维中线粒体耗竭和肌节紊乱(“轴空”)的病灶。尽管轴索性肌病是最常见的先天性肌病,但其发病机制仍不清楚,且缺乏特异性诊断标志物。轴索性肌病大多由两种肌浆网蛋白的突变引起:大量钙离子释放通道兰尼碱受体1(RyR1)或功能未知的硒蛋白N(SelN)。为了寻找独特的标志物并获得进一步的病理生理学见解,我们确定了12例轴索性肌病患者的分子缺陷,并分析了其肌肉活检中钙离子释放复合体6种蛋白的免疫定位。在7例携带RYR1突变的病例中(6例CCD,1例MmD),轴空区的RyR1缺失;相反,肌浆网的其他蛋白(肌钙蛋白、肌浆网钙ATP酶1/2和三联蛋白)以及横小管(二氢吡啶受体α1亚基)在病灶内或病灶周围积聚,提示钙离子释放复合体蛋白排列发生了原始改变。相反,在5例携带SelN突变的MmD病例中,所有与钙相关的蛋白分布均正常。我们的结果为轴索性肌病的鉴别诊断和分子诊断提供了合适的工具,并表明不同的病理生理机制导致了SelN相关和RyR1相关轴索性肌病中轴空的形成。